Additive transfer unit having a slidable piercing member

ABSTRACT

An additive container and transfer unit for transferring a solution from the additive container to a container which is under a vacuum, the transfer unit including a closure having a transfer pin or piercing member which is axially movable from a first position to a second position within a supporting member or guide. The additive container and transfer unit is particularly applicable to the transfer of a medicament within the container to a vacuumized parenteral fluid container. In this application, the additive container is inverted and the point of the transfer pin projecting from the closure is positioned on the I.V. fluid bottle stopper. As downward thrust is applied to the additive container, the end of the transfer pin projecting from the closure will pierce the I.V. fluid bottle stopper. As further thrust is applied, the additive container closure will move along the transfer pin, the other end of the transfer pin thereby piercing the diaphragm portion of the stopper within the transfer unit thereby providing a pathway between the two containers through the passageway in the transfer pin. The vacuum within the vacuumized container will then draw the solution within the additive container into the vacuumized container.

This is a continuation, of application Ser. No. 465,230 filed Mar. 29,1974, now abandoned.

BACKGROUND OF THE INVENTION

In administrating intravenous fluid to a patient, it is oftentimesnecessary to add a medicament, such as potassium chloride solution, tothe intravenous fluid. Intravenous fluids are mostly packaged in glassbottles which are sealed under a vacuum with rubber stoppers. It istherefore necessary to introduce the medicament through the stopper. Onemethod is by use of a syringe, withdrawing the desired medicament froman ampule or stoppered vial and then injecting the medicament into theI.V. fluid container by puncturing the stopper with the needle of thesyringe. Some disadvantages are apparent with this method. For example,use of an ampule results in danger of cut fingers from glass and glassparticulate matter, requires the use of an antiseptic swab, includes thepossibility for touch contamination, and requires considerable time toeffect the transfer since many steps are involved. Likewise withstoppered vials, there is a possibility for touch contamination, therubber closure of the vial must be cleansed, and the like with theampule, considerable time is needed to effect the transfer. Additivecontainers containing the medicament to be added together with a specialclosure including a piercing pin for piercing the I.V. bottle stopper,such as illustrated in U.S. Pat. No. 3,055,367, are also available. Suchcontainers include a fixed piercing pin with a stopper having an openingtherethrough for communicating with the inside of the container. Withsuch units, once opened some fluid may leak out when the unit ispositioned for transfer. Additionally, the metal retaining ring whichretains the stopper and piercing pin in place is not sterile and comesinto contact with the sterile top of the I.V. bottle. With such units itis not possible to effect a partial withdrawal of the contents with aneedle and syringe or it can be achieved only with difficulty, using asyringe having a long needle which is then inserted through the piercingpin.

SUMMARY OF THE INVENTION

The additive container and transfer unit of the present inventionincludes a closure which has a transfer pin axially movable in a centralopening in the vial stopper, or otherwise movable from a first positionto a second position, the inside end of the stopper being sealed by apuncturable diaphragm portion. The double-ended transfer pin piercesboth the I.V. bottle and additive vial stoppers so that transfer is madeat that point while the system is completely closed off from theatmosphere. In one embodiment of the invention, after the protectivehood is removed, the additive vial is inverted and the point of thetransfer pin projecting from the stopper is positioned on the I.V.bottle stopper. When force is applied to the additive container, the endof the transfer pin projecting from the stopper will pierce the I.V.bottle stopper. As further force is applied, the additive vial stopperwill move along the transfer pin, the other end of the transfer pinthereby piercing the diaphragm portion of the stopper providing apathway between the two containers. The vacuum within the I.V. fluidcontainer will then draw the medicament within the additive containerinto the I.V. fluid container. Accordingly, in a single motion, theadditive container and transfer unit is activated and the medicamenttransferred to the I.V. bottle.

In one embodiment, prior to use, the double-ended transfer pin can beremoved and a needle and syringe used to draw out the contents of theadditive container. This may be necessary when there is a need for onlya partial dose of medicament, where the contents are to be added to anintravenous fluid bottle with depleted vacuum or where the contents areto be added to a flexible I.V. fluid container.

The additive container and transfer unit of the present inventionprovides a completely closed system, permits rapid transfer of themedicament within the container, is easily adaptable to all I.V. fluidcontainers which are under a vacuum and have puncturable closures, andcan be easily adapted to partial dose requirements and for makingadditions to flexible I.V. fluid containers.

The invention will be better understood with reference to the followingdescription.

DRAWINGS

FIG. 1 is a side elevational view of one embodiment of the inventionillustrating the transfer container and closure in an inverted position;

FIG. 2 is a partial side elevational view, partially in cross sectionillustrating the transfer container and closure of FIG. 1 prior to use;

FIG. 3 is a cross sectional view as seen along the lines 3--3 of FIG. 2;

FIG. 4 is a cross sectional view as seen along the lines 4--4 of FIG. 2;

FIG. 5 is a cross sectional view, partially in cross sectionillustrating use of the transfer container and closure with a parenteralsolution container;

FIG. 6 is a plan view as seen along the lines 5--5 of FIG. 5;

FIG. 7 is a partial side elevational view, partially in cross sectionillustrating another embodiment of the invention;

FIG. 8 is a partial side elevational view in cross section of thetransfer container and closure of FIG. 7;

FIG. 9 is a cross sectional view as viewed along the lines 9--9 of FIG.8; and

Fig. 10 is a partial side elevational view, partially in cross sectionillustrating the transfer container and closure and used in conjunctionwith a parenteral solution container.

DETAILED DESCRIPTION

Referring to FIGS. 1 through 7 of the drawings, the additive transfercontainer 10 comprises a closure portion 11 and container 12. As bestseen in FIG. 2, the closure 11 includes a stopper 13 which is affixed tothe finish 22 of the neck 23 of the container 12 by an inner ferrule 14.The stopper 13 includes an annular shoulder 18 which abuts the finish 22of the container neck 23 and is sealed thereto by the inner ferrule 14;the ferrule being crimped over the shoulder 18 and the bead 24 on theneck 23. The stopper 13 includes a central opening 19 which extendsalong the longitudinal axis of the stopper 13, the end 15 of the stopper13 which projects into the neck 23 of the container 12 being sealed by apuncturable diaphragm 16. Preferably, the end 17 of the opening 19 inthe stopper 13 is of reduced diameter and tapers inwardly to guide thepiercing pin 28 as hereinafter described. An annular undercut 20 isformed in the central opening 19 of the stopper 13, spaced away from theopen end 21 thereof and serves to retain the transfer pin 28 in place ashereinafter described. The double ended transfer pin 28 is disposedwithin the central opening 19 of the stopper 13. The transfer pin 28 isdouble ended, i.e., has a point at both ends, the point 29 on theproximal end 30 of the pin 28 being for the purpose of puncturing thestopper 45 in a parenteral solution container as hereinafter described,the point 31 on the distal end 32 of the transfer pin 28 being for thepurpose of puncturing the diaphragm 16 of the stopper 13. The transferpin 28 includes annular spaced projection 34 and barbs or nibs 33extending outwardly from the body 35 of the transfer pin 28 as well asan annularly projecting shoulder or stop 36. A longitudinal passageway42 extends through the transfer pin 28, the distal end 32 being open. Asillustrated, the proximal end 30 is closed and pointed but includesopposed expulsion ports 43 for release of the additive medicament intothe I.V. bottle.

Prior to use, the transfer pin 28 is positioned in the central opening19 of the stopper 13 as illustrated in FIG. 2, the annular projection 34in the transfer pin 28 exerting pressure against the stopper 13 toprevent the leakage of air around the transfer pin 28 and through thecentral opening 19 when entry is made as illustrated in FIG. 5. A hood40 is positioned on the stopper 13, the flange portion 41 of the hood 40resting on the inner ferrule 14 which holds the stopper 13 on the neck23 of the container 12. An annular ridge 48 formed in the flange portion41 of the hood 40, projecting toward the stopper 13 provides aneffective seal between the closure 11 and stopper 13. An outer ferrule37 is crimped in place over the flange 41 of the hood 40 and the bead 24extending from neck 23 of the bottle to hold the entire assembly 11 inplace. To facilitate removal of the outer ferrule 37 or tamperproofseal, a tear-tab 38 can be formed thereon.

In use, the tamperproof metal seal or outer ferrule 37 is removed bygrasping the tear-tab 38 and applying force to tear the seal 37. Removalof the seal 37 releases the rigid plastic hood 40 which protects thesterile integrity of the piercing pin 28 prior to use. The hood 40 isremoved and discarded thereby exposing the transfer pin 28. The additivecontainer 10 is thereafter inverted and the transfer pin 28 aligned withthe diaphragm or opening 44 in the stopper 45 of a parenteral solutioncontainer 46. A single thrust of the additive container 10 will activatethe unit, the proximal end 30 of the transfer pin 28 piercing thediaphragm 44 or passing through the opening in the stopper 45 in theparenteral solution bottle 46. As the transfer container 10 is thrustdownwardly, the stop 36 on the transfer pin 28 will abut the surface ofthe stopper 45 on the parenteral solution container 46. Thereafter thetransfer pin 28 will remain stationary and with continued force, thedistal end 32 of the transfer pin 28 will slide along the centralopening 19 in the stopper 13 of the additive container 10 with the point31 thereof piercing the diaphragm 16 in the stopper 13. When entry ismade through both stoppers, a pathway will be provided through thepassageway 42 in the double ended transfer pin 28 and accordingly, thevacuum within the parenteral solution container 46 will draw theadditive solution from the additive container 12 through the transferpin 28 and expulsion ports 43 into the I.V. container 46. With theembodiment as illustrated, 10 milliliters of additive solution can betransferred in two seconds or less. As force is applied, the transferpin 28 will move from a first position as illustrated in FIG. 2 to asecond position as illustrated in FIG. 5, the projection 33 on thetransfer pin 28 thereby fitting within the undercut 20 in the stopper13. When the container 10 is withdrawn, the cannula of an administrationset (not shown) can be inserted into the stopper of the parenteralsolution container for the purpose of administering the solution to apatient.

With the transfer container 10 of the present invention, there is nopossibility of leakage of fluid from the additive container 12 whenpositioned for transfer to an I.V. bottle. In contrast, many suchtransfer containers have an open passage through the closure thereof sothat when inverted, leakage of fluid can result. Further, with thetransfer container 10, the transfer pin 28, stopper 13 area, hood 40 andseal 37 can be sterilized prior to putting the assembly in place.Consequently, since the seal 37, which comes in contact with theatmosphere, is removed prior to use; only sterile surfaces will come incontact. As can be seen in FIG. 5, the stop 36 of the sterile pin 28comes into contact with the sterile top of the I.V. container 46 stopper45. Accordingly, any contamination of the I.V. solution within thecontainer 46 due to contact with unsterile surfaces is minimized.

If necessary, access to the additive solution within the additivecontainer 12 can be achieved by a syringe and needle. The seal 37 andhood 40 is removed as previously described thereby exposing the transferpin 28. At this point, the transfer pin 28 can be withdrawn from thestopper 13 and the needle of a syringe inserted through the diaphragm 16in the stopper 13 of the additive container 10. Additive solution withinthe container 12 can then be withdrawn into the syringe. This techniquecan be useful if the vacuum within the parenteral solution bottle hasbeen depleted, if transfer to a flexible plastic I.V. container isrequired, or if only a part of the contents of the additive container isdesired.

FIGS. 7 through 10 illustrate another embodiment of the presentinvention utilizing a metal needle insert molded in a plastic hub.Referring to FIG. 7, the additive transfer unit 50 of this embodimentcomprises a container 51 for storing the additive medicament and aclosure portion 52 including a protective hood 53. As best seen in FIG.8 which illustrates the unit 50 with the hood 53 removed and ready touse, the unit 50 comprises a container 51 or bottle having a projectingbead 54 on the neck thereof. The closure portion 52 comprises apuncturable stopper 55 including an annular shoulder 56 for abutmentwith the finish 57 of the container 51 and a diaphragm portion 58. Atubular member 60 for retaining the piercing member 61 is positioned onthe stopper 55 and a metal ferrule 62 is crimped over the bead 54 of thebottle 51 and the annular flange 63 extending from the tubular member 60to retain the closure 52 in place. The flange 63 of the tubular member60 may include an annular ridge 64 on both sides thereof to provide amore effective seal between the stopper 55 and the tubular member 60 andto provide a better crimping surface for the ferrule 62. The cylindricalportion 65 of the tubular member 60 includes a central opening 66therethrough in which is positioned the piercing member 61. If desired,an undercut 67 can be formed in the cylindrical portion for retaining an0 ring 68 and provide a more effective seal when the protective hood 53is positioned in place as illustrated in FIG. 7.

The piercing member 61 comprises a metal cannula 70 or needle insertmolded in a plastic hub 71, the diameter of the hub 71 being coextensivewith the diameter of the opening 66 through the tubular member 60 toprevent leakage of fluid while at the same time permitting the hub 71 toreciprocate or slide with in the opening 66. The length of the doubleended needle 70 is longer than the length of the hub 71 so that thepointed ends thereof project from either end of the hub 71. To provide amore effective seal, a portion 72 of the hub which extends from thetubular member 60 prior to use of the unit 50 can be formed of a smallerdiameter than the remaining portion 73, with the opening 74 on the endof the tubular member 60 being of such diameter as to mate with thesmaller portion 72 of the hub 71. Such a construction will also preventaccidental release of the piercing member 61 from the closure 52.

As with the previously described embodiment, the unit 50 is put in useby removing the protective hood 53 which is retained on the tubularmember 60 by means of a spot weld to protect the sterile integrity ofthe piercing member 61 and other exposed portions of the closure 52. Theunit 50 is then put in place on the stopper 80 of a parenteral solutioncontainer 81 and pushed downwardly whereby the proximal end 75 of theneedle 70 will puncture the stopper 80 in the parenteral solutioncontainer 81. Further pressure will cause the tubular member 60 of theclosure 52 to slide along the hub 71 whereby the distal end 76 of theneedle 70 will puncture the stopper 55 on the additive container 51thereby providing a fluid flow path from the additive container 51 tothe parenteral solution container 81. The additive medicament willthereby be drawn into the parenteral solution container 81. The additiveunit 50 can then be withdrawn and the parenteral solution container 81containing the medicament arranged for infusion of the solution to thepatient.

What is claimed is:
 1. An additive transfer unit for storing andtransferring of a medicament to a .Iadd.solution .Iaddend.containerhaving an exposed closure .[.and a vacuum therein.].;said transfer unitcomprising .[.a.]. .Iadd.an additive .Iaddend.container for storing themedicament to be transferred, said .Iadd.additive .Iaddend.containerhaving a rigid neck portion defining a finish, the opening in said.Iadd.additive .Iaddend.container being sealed by a closure affixedthereto; said closure having a shoulder for resting against said finishof the rigid container neck, said closure including a puncturablestopper with a pierceable diaphragm portion positioned in sealingengagement with the opening in the .Iadd.additive .Iaddend.container andin a substantially stationary manner; a tubular member having acylindrical portion, the cylindrical portion including a central openingtherein for slidably receiving a piercing member; said tubular memberincluding an undercut in the outside surface of the cylindrical portionthereof, sealing means positioned in said undercut; a hood engageablewith the cylindrical portion of the tubular member and the sealing meansto cover the piercing member and tubular member prior to use of theunit; said tubular member being positioned and arranged so that theopening therein overlies the diaphragm portion of said stopper; crimpingmeans to affix the closure and tubular member to the .Iadd.additive.Iaddend.container; said piercing member being positioned within saidcentral opening in said member and having a passageway therethrough forthe flow of said medicament and a point on both ends thereof; saidpiercing member having an integral stop and being movable from the firstposition for entry through the closure of the .[.vacuumized.]..Iadd.solution .Iaddend.container with said integral stop constructedand arranged to contact said exposed closure of .[.vacuumized.]..Iadd.said solution .Iaddend.container to a second position forpuncturing of the stopper in the additive container to thereby provide apathway between the containers and permit the medicament within theadditive container to transfer into the .[.vacuumized.]. .Iadd.solution.Iaddend.container.
 2. The additive transfer unit of claim 1 whereinsaid tubular member includes an annular flange extending from one endthereof, the flange being positioned on the stopper so that the openingwithin the cylindrical portion overlies said stopper, and said crimpingmeans for affixing said closure and tubular member to said.Iadd.additive .Iaddend.container includes a ferrule crimped about theflange and container to affix said member and stopper to the.Iadd.additive .Iaddend.container.
 3. The additive transfer unit ofclaim 2 wherein the piercing member comprises a needle having a hub, thediameter of the hub being coextensive with the central opening throughthe tubular member to thereby prevent leakage of fluid while at the sametime permitting the hub to slide within the central opening, the lengthof the needle being longer than the length of the hub so that thepointed ends thereof project from either end of the hub.
 4. An additivetransfer unit for storing and transferring of a medicament to a.Iadd.solution .Iaddend.container having an exposed closure .[.and avacuum therein.].;said transfer unit comprising .[.a.]. .Iadd.anadditive .Iaddend.container for storing the medicament to betransferred, said .Iadd.additive .Iaddend.container having a rigid neckportion defining a finish, the opening in said container being sealed bya closure affixed thereto; said closure having a shoulder for restingagainst said finish of the rigid container neck, said closure includinga puncturable stopper positioned in sealing engagement with the openingin the .Iadd.additive .Iaddend.container and in a substantiallystationary manner, and means for affixing the stopper to the.Iadd.additive .Iaddend.container; said stopper including a centralopening extending along the longitudinal axis thereof for slidablyreceiving a piercing member, the end of the stopper projecting into thecontainer being sealed by a puncturable diaphragm; a piercing memberhaving a passageway therethrough for the flow of said medicament and apoint on both ends thereof and disposed within the central opening insaid stopper, one end of the piercing member extending from saidopening; said piercing member having an integral stop and being movablefrom a first position for entry through the closure of the.[.vacuumized.]. .Iadd.solution .Iaddend.container with said integralstop contacting said exposed closure of the .[.vacuumized.]..Iadd.solution .Iaddend.container to a second position for puncturing ofthe diaphragm of the stopper in the additive container to therebyprovide a pathway between the containers and permit the said medicamentwithin the additive container to transfer into the .[.vacuumized.]..Iadd.solution .Iaddend.container; said integral stop of the piercingmember including an annular shoulder extending from the body thereof ata point in the portion of the piercing member which extends from thecentral opening in the stopper, said shoulder preventing excessivemovement of the piercing member in the central opening in the stopperwhen the piercing member is inserted in the closure of .[.avacuumized.]. .Iadd.said solution .Iaddend.container; said piercingmember including an elongated body with said point on either end thereofand a projection extending from the body intermediate the ends thereof;the central opening within the stopper including an undercut to receivethe projection on the piercing member when the piercing member is movedfrom the first position to the second position within the centralopening in the stopper for puncturing of the diagram of the stopperwhereby the projection on the piercing member will engage the undercutin the opening in the stopper to thereby retain the piercing memberwithin the opening in the stopper when the transfer unit is withdrawnfrom the .[.vacuumized.]. .Iadd.solution .Iaddend.container.
 5. Theadditive transfer unit of claim 4 including a hood for protecting thepiercing member and stopper prior to use, said hood having a flangeextending from the open end thereof, the flange of the hood overlyingsaid stopper, and means for affixing the hood to the .Iadd.additive.Iaddend.container.
 6. The additive transfer unit of claim 5 wherein themeans for affixing the hood to the .Iadd.additive .Iaddend.containercomprises a tamperproof, removable seal fastened to the .Iadd.additive.Iaddend.container and hood so that upon removal of the seal, the hoodcan be removed to expose the piercing member. .Iadd.
 7. The additivetransfer unit as defined in claim 4 wherein said solution container isvacuumized. .Iaddend.